目的:探讨经鼻内窥镜下手术治疗管内段视神经损伤的围手术期护理。方法:对收治的11例视神经损伤住院患者的资料及围手术期护理过程进行分析总结。结果:行视神经减压术的11例患者中1例失访,7例有效,其中4例视力有较明显的提高。结论:经鼻内镜视神经减压术损伤小,并发症少,手术时间短,疗效满意,其中围手术期的护理是提高手术疗效的一个重要环节。
We reported 42 cases of indirect optic nerve trauma in craniofaeial injuries. Mydriasis in affected eyes was found in 30 cases with absence or diminish of direct pupillary reflex but presence of indirect pupillary reflex. Imaging examination revealed optic canal fracture in 24 eases. Seven of 9 patients in whom the diagnosis of optic trauma was comfirmed received operation of optic nerve decompression from cranial and superior orbital wall approach within 10 days following injuries ,resulting in improvement of visual loss. While the other 2 patients operated on 15 days after trauma,obtained no relieve in their visual impairemenl. And 7 of 21 presumed cases of indirect optic trauma in this series treated with steroids became blind. We suggested that pupillary examination,imaging analysis,as well as early diagnosis and operation were essential to diagnosis and management of indirect optic trauma complicating craniofacial injuries. (Chin J Ocul Fundus Dis,1994,10:210-212)
ObjectiveTo investigate the effect of heat shock protein B8 (HspB8) downregulation on retinal ganglion cell (RGC) and retinal function in the mice model of optic nerve injury (ONC).MethodsAdeno-Associated Virus (AAV) 2 AAV2-shHspB8-GFP was constructed to knockdown HspB8. 66 adult male C57/BL6 mice were randomly divided into the control group, the ONC group, the AAV2-shHspB8 group, the ONC+AAV2-shHspB8 group, and the ONC+AAV2- GFP group. There were 10, 20, 16, 10 and 10 mice respectively, and both eyes were used as experimental eyes. Western blot was used to evaluate the expression of HspB8 on day 3 and 7 after ONC. By GFP immunofluorescence staining, the efficacy of AAV2-shHspB8-GFP transfer was accessed. Moreover, it was possible to identify functional and RGC survival differences between groups by optomotor response (OMR), dark adapted full-field flash electroretinogram (ff-ERG), oscillatory potentials (OPs), photopic negative response (PhNR) and retinal flat-mount RGC counting 5 days after ONC. Comparisons between two groups were made using Mann-Whitney U test, unpaired t-test, unpaired t-test with Welch’s correction, one-way ANOVA, and Bonferroni t test.ResultsCompared with the control group, the expression of HSPB8 protein in the retina of mice in ONC3 group was significantly increased, and the difference was statistically significant (F=43.63, P<0.01). Compared with the control group, the ONC group showed obviously lower visual acuity (P<0.01), lower a-wave, b-wave, OPs, PhNR amplitude, longer b-wave latency (P<0.05), and the survival rates of RGC in ONC3 group, ONC5 group and ONC7 group decreased in a time-dependent manner(F=384.90, P<0.01). Transfection of AAV2 efficiency was highest on 4 weeks after IVT. Besides, there was no significant differences between the control group and the AAV2-shHspB8 group on visual acuity, ff-ERG, OPs, PhNR and RGC survival (P>0.05). In comparison of the control group, we found that RGC survival of the ONC5+AAV2-shHspB8 group was significantly elevated (F=10.62, P<0.01).ConclusionsExpression of HspB8 on the retina can be induced by ONC. The investigation of RGC counting, visual acuity, and ff-ERG revealed that optic nerve injury destructed functionality of mice retina and resulted to RGC death ultimately. The Most crucial finding of this research is that HspB8 knockdown had a neuroprotective effect in RGC after ONC.
Purpose To evaluate differences in the pattern of optic disc and retinal nerve fiber layer (RNFL) damage in normal-tension glaucoma (NTG) and high-tension glaucoma (HTG) patients. Methods We enrolled 49 eyes of 49 patients:30 NTG (IOP≤21 mm Hg,1 mm Hg=0.133 kPa), 19 HTG(IOP≥25 mm Hg). Mean age was 59.2±12.3 (range, 36-75) for HTG patients, and 59.6±8.6(range, 39-71) for NTG patients. All patients underwent complete ophthalmic examination, achromatic automated perimetry (AAP), scanning laser ophthalmoscopy (SLO), scanning laser polarimetry (SLP), optical coherence tomography (OCT) and Heidelberg retinal tomography (HRT). All patients had glaucomatous optic nerve damage and abnormal AAP. Results There were no differences in mean deviation on AAP between NTG and HTG eyes (P=0.37), while the corrected pattern standard deviation was larger in NTG than in HTG eyes (P=0.014). Cup∶disc area ratios in global (P=0.03) and three sectors (Plt;0.05) except nasal sector were significantly larger in the NTG group, whereas rim area in global (P=0.03) and three sectors (Plt;0.05) except nasal quadrant obtained by SLO were smaller in NTG than in HTG eyes. The other numerical parameters obtained by three imaging technologies could not detect differences in the optic disc or RNFL anatomy between the two groups. Conclusions Cup∶disc area ratio was larger in patients with NTG than in those with HTG, whereas significant thinning of rim was associated with NTG eyes. The measurement of retinal nerve layer thickness in global and each quadrant was similar between two groups. More focal or segmental analysis of the data contained within SLO, SLP and OCT images are needed to detect localized differences in eyes with varying levels of IOP. (Chin J Ocul Fundus Dis, 2002, 18: 109-112)
The optic nerve belongs to the central nervous system (CNS). Because of the lack of neurotrophic factors in the microenvironment of the CNS and the presence of myelin and glial scar-related inhibitory molecules, and the inherent low renewal potentials of CNS neurons comparing to the peripheral nerve system, it is difficult to spontaneously regenerate the optic nerve after injury. Protecting damaged retinal ganglion cells (RGCs), supplementing neurotrophic factor, antagonizing axon regeneration inhibitory factor, and regulating the inherent regeneration potential of RGCs can effectively promote the regeneration and repair of optic nerve. Basic research has made important progress, including the restoration of visual function, but there are still a lot of unsolved problems in clinical translation of these achievements, so far there is no ideal method of treatment of optic nerve injury. Therefore, it is rather urgent to strengthen the cooperation between basic and clinical research, to promote the transformation of basic research to the clinical applications as soon as possible, which will change the unsatisfactory clinical application status.
ObjectiveTo observe the protective effect of human umbilical cord blood stem cells (hUCBSC) transplantation on retinal ganglion cells (RGC) after optic nerve injury. Method48 adult Sprague-Dawley rats were randomly divided into group A and B, therefore 24 rats in each group. Calibrated optic nerve crush injury model was induced in the left eyes, the right eyes served as a control. Medicine was injected at seventh day after optic nerve injury. PBS was injected into the eyes of Group A rats by peribulbar injection. The hUCBSCs were injected into the eyes of Group B rats by peribulbar injection. Seven days before sacrifice, 5% fluorogold was injected into superior colliculi bilaterally. At 7, 14, 21, 28 days after labeled, retinal flat mounts were observed under fluorescence microscope and optical microscope to investigate the morphological and RGC changes in density during retinal degeneration. ResultsThe RGC number showed a tendency to decline gradually along with increases of the time in two groups, but the trend of decrease of Group B was evidently slower than that of Group A. The RGC number of the injury eye were less than the control eye in Group A and B (t=3.24, 3.15; P < 0.05). At 7, 14, 21, 28 days after labeled, the RGC number (t=4.78, 4.70, 3.98, 3.27; P < 0.05) and labeled RGC rate (t=4.39, 4.21, 4.36, 5.07; P < 0.05) in group B were more than those in group A. After optic nerve injury, there was karyopycnosis on ganglion cell layer of retina, thinning on each layer of retina, derangement of cell and decrease in RGC. There was different degree of the above change in different time after optic nerve injury. There were the swelling, the hemorrhage, derangement of spongiocyte and the denaturation like vacuole in the spot of optic nerve injury. Moreover, they were aggravating with increases of the time after optic nerve injury. There was no pathological changes in normal eyes. ConclusionThe hUCBSC can increase the survival rate of the RGC and can rescue and(or) restore the injujed RGC after transplanted into body of optic nerve crush rat model by peribulbar injection.
Objective To evaluate the influence of the location of retinal vessel trunk on neuroretinal rim width of inferior and superior sectors of optic disc, and explore its role in the diagnosis of glaucomatous optic nerve lesion. Methods The photographs of ocular fundus from 459 patients with clear location of retinal vessel trunk, including large disc in 131, medium disc in 145, horizontally oval disc in 75, and small disc in 108 were evaluated. Independent-sample t test was used to compare the difference of the superior and inferior rim widths between the higher-vessel group and the lower-vessel group, and to compare the difference of superior and inferior vessel distances between the narrow-superior-rim-width group and the narrow inferior-rim-width group. Results In most of the patients, or the ones with large and small disc, the ratio of superior rim width to summation of superior and inferior rim widths in the higher-vessel group(0.467plusmn;0.051,0.445plusmn;0.040,0.508plusmn;0.056)were less than which in the lowervessel group(0.500plusmn;0.066,0.474plusmn;0.062,0.546plusmn;0.048), and the differences were significant(P=0.000, 0.045, 0.018); the ratio of superior vessel distance to summation of superior and inferior vessel distance in the narrow-superior-rim-width group(0.510plusmn;0.051,0.508plusmn;0.055,0.512plusmn;0.036)were less than which in the narrow-inferior-rim-width group(0.528plusmn;0.045,0.533plusmn;0.048,0.534plusmn;0.045), and the differences were significant(P=0.000, 0.046, 0.022). Conclusions The position of optic disc vessel trunk influences its superior and inferior rim width. The rim closer to vessel trunk position has narrower width than which comparatively far away from the position. In patients with large, medium, horizontally oval optic disc, glaucoma optic nerve lesion would be considered if the optic disc has the shape of narrower inferior rim, broader superior rim, and vessel location in the superior half of the disc. In the ones with small disc, the optic disc with the shape of narrower superior rim, broader inferior rim, and vessel location in the inferior half of the disc may suggest glaucoma optic nerve lesion. (Chin J Ocul Fundus Dis, 2007, 23: 118-121)